Your search keyword '"Microsporidiosis pathology"' showing total 158 results

51. Negative correlation between Nosema ceranae spore loads and deformed wing virus infection levels in adult honey bee workers.

Author

Costa C, Tanner G, Lodesani M, Maistrello L, and Neumann P

Subjects

Animals, Antibodies, Viral, Beekeeping, Host-Parasite Interactions, Insect Viruses isolation & purification, Microsporidiosis pathology, Microsporidiosis virology, Nosema isolation & purification, Wings, Animal virology, Bees parasitology, Bees virology, Insect Viruses pathogenicity, Microsporidiosis veterinary, Nosema pathogenicity, RNA Virus Infections veterinary, Spores, Fungal isolation & purification, Wings, Animal abnormalities

Abstract

Interactions between pathogens might contribute to honey bee colony losses. Here we investigated if there is an association between the microsporidian Nosema ceranae and the deformed wing virus (DWV) in different body sections of individual honey bee workers (Apis mellifera ligustica) under exclusion of the vector Varroa destructor. Our data provide correlational evidence for antagonistic interactions between the two pathogens in the midgut of the bees., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published

2011

52. Microsporidial keratoconjunctivitis in an immunocompetent patient with a past history of laser in situ keratomilieusis surgery.

Author

Bommala ML, Nalamada S, Sharma S, and Garg P

Subjects

Administration, Oral, Adult, Albendazole administration & dosage, Antifungal Agents administration & dosage, Humans, Keratoconjunctivitis pathology, Male, Microsporidiosis pathology, Treatment Outcome, Keratoconjunctivitis diagnosis, Keratoconjunctivitis microbiology, Keratomileusis, Laser In Situ adverse effects, Microsporidia isolation & purification, Microsporidiosis diagnosis, Microsporidiosis microbiology

Abstract

Ocular infection with microsporidia has been documented in both immunocompetent and immunocompromised patients. Sources and mode of human infection with microsporidia have been difficult to ascertain although exposure to water may be an important risk factor. Of four genera that have been reported in human disease, only the genera Nosema, Encephalitozoon and Septata are documented to cause ocular infection. Here, in our case a healthy 30-year-old man who had undergone bilateral laser in situ keratomilieusis surgery two and half years back presented with a 10-day history of redness and 4-day history of blurring of vision in the right eye. On presentation, his best-corrected visual acuity was 20/20 partial in both eyes. Slit lamp examination revealed multiple pin head shaped infiltrates in the right cornea. Examination of the left eye was unremarkable. Based on microscopic demonstration of numerous microsporidial spores in the corneal scrapings, a diagnosis of microsporidial keratitoconjunctivitis was made. On treatment with oral albendazole, the cornea became clear with complete resolution of symptoms and signs within two weeks.

Published

2011

53. Characteristics of microsporidial keratoconjunctivitis in an eastern Indian cohort: a case series.

Author

Sengupta J, Saha S, Khetan A, Pal D, Gangopadhyay N, and Banerjee D

Subjects

Adolescent, Adult, Age Distribution, Child, Cohort Studies, Environmental Exposure, Female, Humans, India epidemiology, Keratoconjunctivitis diagnosis, Keratoconjunctivitis microbiology, Male, Microbiological Techniques methods, Microsporidiosis diagnosis, Microsporidiosis microbiology, Retrospective Studies, Risk Factors, Young Adult, Keratoconjunctivitis epidemiology, Keratoconjunctivitis pathology, Microsporidia isolation & purification, Microsporidiosis epidemiology, Microsporidiosis pathology

Abstract

Background: Microsporidia are intracellular parasites responsible for human infections. Recently, there has been an increase in the incidence of microsporidial keratoconjunctivitis (MKC) affecting normal individuals worldwide., Aim: To determine the characteristics of MKC in an Indian cohort., Materials and Methods: This is a retrospective, noncomparative, observational case series, involving patients with MKC between June and September 2009. Of the 24 patients identified, microbiological confirmation in direct smear was obtained in 22 cases and selected. Standard microbiological workup was performed in all the cases. We studied the demographics, predisposing conditions, antecedent treatment received before presentation, clinical characteristics, treatment offered, and resolution time with sequel. The management consisted of simple debridement and application of chloramphenicol ointment (1%) two times a day., Results: Mean age of onset was 18.7 years (95% CI, 15.7-21.7; range, 11-36 s years). All patients gave history of prior outdoor activity and exposure to rain water/mud. Antecedent treatment comprised of Acyclovir eye ointment (45.4%) and antibiotic eye drop (27.3%) most commonly. Microsporidia were identified in Gram stain (81.8%), 10% potassium hydroxide mount (72.7%), modified Ziehl-Neelsen staining (36.4%), and Giemsa (18.2%). Majority presented as unilateral superficial keratoconjunctivitis with punctate epithelial keratitis. Mean resolution time was 9 days (95%CI, 7.9-10.2)., Conclusions: MKC can occur in normal patients with exposure to rain and mud, related to outdoor activity often misdiagnosed as viral ocular infections. Strong clinical suspicion with proper microbiological evaluation helps to diagnose this commonly misdiagnosed condition.

Published

2011

54. Spraguea (Microsporida: Spraguidae) infections in the nervous system of the Japanese anglerfish, Lophius litulon (Jordan), with comments on transmission routes and host pathology.

Author

Freeman MA, Yokoyama H, Osada A, Yoshida T, Yamanobe A, and Ogawa K

Subjects

Animals, Central Nervous System Fungal Infections epidemiology, Central Nervous System Fungal Infections microbiology, Central Nervous System Fungal Infections pathology, Female, Fish Diseases epidemiology, Fish Diseases pathology, Fishes, Japan epidemiology, Male, Microsporidiosis epidemiology, Microsporidiosis microbiology, Microsporidiosis pathology, Prevalence, Apansporoblastina physiology, Central Nervous System Fungal Infections veterinary, Fish Diseases microbiology, Microsporidiosis veterinary

Abstract

Anglerfish from the genus Lophius are a globally important commercial fishery. The microsporidian Spraguea infects the nervous system of these fish resulting in the formation of large, visible parasitic xenomas. Lophius litulon from Japan were investigated to evaluate the intensity and distribution of Spraguea xenomas throughout the nervous system and to assess pathogenicity to the host and possible transmission routes of the parasite. Spraguea infections in L. litulon had a high prevalence; all fish over 403 mm in standard length being infected, with larger fish usually more heavily infected than smaller fish. Seventy percent of all fish examined had some gross visible sign of infection. The initial site of development is the supramedullary cells on the dorsal surface of the medulla oblongata, where all infected fish have parasitic xenomas. As the disease progresses, a number of secondary sites typically become infected such as the spinal, trigeminal and vagus nerves. Fish with infection in the vagus nerve bundles often have simultaneous sites of infection, in particular the spinal nerves and along the ventral nerve towards the urinary bladder. Advanced vagus nerve infections sometimes form xenomas adjacent to kidney tissue. Spraguea DNA was amplified from the contents of the urinary bladders of two fish, suggesting that microsporidian spores may be excreted in the urine. We conclude that supramedullary cells on the hindbrain are the primary site of infection, which is probably initiated at the cutaneous mucous glands where supramedullary cells are known to extend their peripheral axons. The prevalence of Spraguea infections in L. litulon was very high, and infections often extremely heavy; however, no associated pathogenicity was observed, and heavily infected fish were otherwise normal., (© 2011 Blackwell Publishing Ltd.)

Published

2011

55. First cases of microsporidiosis in transplant recipients in Spain and review of the literature.

Author

Galván AL, Sánchez AM, Valentín MA, Henriques-Gil N, Izquierdo F, Fenoy S, and del Aguila C

Subjects

Aged, Enterocytozoon classification, Enterocytozoon genetics, Genotype, Humans, Immunocompromised Host, Kidney Transplantation adverse effects, Male, Microsporidiosis pathology, Middle Aged, Spain, Enterocytozoon isolation & purification, Microsporidiosis diagnosis, Transplantation

Abstract

Microsporidia are currently considered emerging pathogens responsible for life-threatening infections in organ transplant recipients. Here, we describe the first cases of intestinal microsporidiosis by Enterocytozoon bieneusi genotype D in two non-HIV-infected renal transplant recipients from Spain. Previously reported cases of microsporidiosis in organ transplant recipients have also been reviewed, highlighting the necessity of considering organ transplant recipients a risk group for microsporidiosis. A systematic search for these parasites is recommended in cases of persistent diarrhea and in the differential diagnosis of other syndromes, such as chronic fever of unknown etiology.

Published

2011

56. Microsporidian parasites: a danger facing marine fishes of the Red Sea.

Author

Abdel-Ghaffar F, Bashtar AR, Mehlhorn H, Al-Rasheid K, and Morsy K

Subjects

Animals, Fish Diseases pathology, Fishes, Histocytochemistry, Indian Ocean, Intestinal Mucosa microbiology, Microscopy, Microsporidiosis epidemiology, Microsporidiosis microbiology, Microsporidiosis pathology, Peritoneal Cavity microbiology, Prevalence, Fish Diseases epidemiology, Fish Diseases microbiology, Microsporidia isolation & purification, Microsporidiosis veterinary

Abstract

Out of 600 marine fish from the Red Sea belonging to three different species that were collected and examined for microsporidian parasites, 87 (14.5%) fish were found to be infected. The infection was recorded as cysts or xenomas embedded in the gut epithelium and the peritoneal cavity of the three fish species. The highest percent of infection with microsporidian parasites was recorded in Saurida tumbil 19.5% (39/200) followed by Pagrus pagrus 15% (45/300) and the lowest percent of infection was recorded in Epinephelus chlorostigma 3% (three out of 100). After rupture of the cysts, the spores were released and examined by light microscopy. Each spore was elongated to ellipsoidal in shape and possessed a posterior vacuole which is characteristic to phylum Microspora. They measure 1.6 ± 0.5 μm (1.5-2.4 μm) × 1.3 ± 0.1 μm (1.3-2.0 μm) in Saurida tumbil and Pagrus pagrus, respectively. The spores of Pleistophora sp recorded from E. chlorostigma were ovoid to pyriform in shape and measure 1.9 ± 0.5 μm (1.8-2.7 μm) × 1.6 ± 0.4 μm (1.5-2.4 μm).

Published

2011

57. Pleistophora hyphessobryconis (Microsporidia) infecting zebrafish Danio rerio in research facilities.

Author

Sanders JL, Lawrence C, Nichols DK, Brubaker JF, Peterson TS, Murray KN, and Kent ML

Subjects

Animals, DNA, Ribosomal genetics, Fish Diseases pathology, Fish Diseases transmission, Microsporidia genetics, Microsporidiosis parasitology, Microsporidiosis pathology, Microsporidiosis transmission, Phylogeny, Fish Diseases parasitology, Microsporidia isolation & purification, Microsporidiosis veterinary, Zebrafish

Abstract

Zebrafish Danio rerio are important models for biomedical research, and thus, there is an increased concern about diseases afflicting them. Here we describe infections by Pleistophora hyphessobryconis (Microsporidia) in zebrafish from 3 laboratories. As reported in other aquarium fishes, affected zebrafish exhibited massive infections in the skeletal muscle, with no involvement of smooth or cardiac muscle. In addition, numerous spores within macrophages were observed in the visceral organs, including the ovaries. Transmission studies and ribosomal RNA (rRNA) gene sequence comparisons confirmed that the parasite from zebrafish was P. hyphessobryconis as described from neon tetra Paracheirodon innesi. Ten 15 d old zebrafish were exposed to P. hyphessobryconis collected from 1 infected neon tetra, and 7 of 10 fish became infected. Comparison of P. hyphessobryconis small subunit rRNA gene sequence from neon tetra with that obtained from zebrafish was nearly identical, with < 1% difference. Given the severity of infections, P. hyphessobryconis should be added to the list of pathogens that should be avoided in zebrafish research facilities, and it would be prudent to avoid mixing zebrafish used in research with other aquarium fishes.

Published

2010

58. New microsporidia parasitizing bark lice (Insecta: Psocoptera).

Author

Sokolova YY, Sokolov IM, and Carlton CE

Subjects

Animals, DNA, Fungal analysis, DNA, Fungal genetics, DNA, Ribosomal analysis, DNA, Ribosomal genetics, Host-Parasite Interactions, Insecta physiology, Microscopy, Electron, Transmission, Microsporidia classification, Microsporidia ultrastructure, Microsporidiosis pathology, Phylogeny, Polymerase Chain Reaction, Spores, Fungal physiology, Spores, Fungal ultrastructure, Insecta microbiology, Microsporidia genetics, Microsporidiosis veterinary

Abstract

Two species of bark lice, Xanthocaecilius sommermanae Mockford and Polypsocus corruptus Hagen, collected in a canopy Malaise trap placed in Great Smoky Mountains National Park as part of a survey of the park's fauna, were found to be infected with microsporidia. Diagnosis was originally based on light microscopy, and was confirmed by PCR amplification and electron microscopy. This is the first record of microsporidia infection in the insect order Psocoptera. Four morphological spore types corresponded to four original SSUrDNA sequences (Genbank accession no. FJ865221-24), suggesting infection with four microsporidia species. Two of those species were examined by electron microscopy. We describe here one new genus and two new species based on morphological and sequence data: Antonospora psocopterae sp. n. with elongated diplokaryotic spores, 4.4+/-0.05 x 1.9+/-0.03 microm and Mockfordia xanthocaeciliae gen. n. sp. n. with ovocylindrical monokaryotic spores, 2.5+/-0.10 x 1.4+/-0.02 microm. A. psocopterae displayed high sequence (95%) and structural similarity with Antonospora scoticae, fell within a well supported dichotomy with A. scoticae inside the Antonospora-Paranosema clade in phylogenetic analyses by NJ, PS and ML. M. xanthocaeciliae did not exhibit much sequence or structural similarity with any of known microsporidia species, except Encephalitozoon spp. M. xanthocaeciliae fell within one clade with Encephalitozoon spp. in phylogenies and shared with encephalitozoons structural resemblance and about 80% of SSUrDNA sequence identity. The other two species were not described and provisionally were placed to the collective genus Microsporidium as Microsporidium sp. 1 and Microsporidium sp. 4 from bark lice because of insufficient morphological data. The finding that samples fixed and stored for months in propylene glycol ("antifreeze") are good enough for DNA sequence analysis and can be used for morphological analyses (if no better fixation alternatives are available), is promising for future surveys for microsporidia., ((c) 2010 Elsevier Inc. All rights reserved.)

Published

2010

59. Emerging and reemerging infectious diseases of nonhuman primates in the laboratory setting.

Author

Bailey C and Mansfield K

Subjects

Animals, Animals, Laboratory, Chickenpox etiology, Chickenpox pathology, Chickenpox veterinary, Communicable Diseases, Emerging etiology, Communicable Diseases, Emerging pathology, Escherichia coli Infections etiology, Escherichia coli Infections pathology, Escherichia coli Infections veterinary, Herpesviridae Infections etiology, Herpesviridae Infections pathology, Herpesviridae Infections veterinary, Malaria etiology, Malaria pathology, Malaria veterinary, Measles etiology, Measles pathology, Measles veterinary, Microsporidiosis etiology, Microsporidiosis pathology, Microsporidiosis veterinary, Primates, Tuberculosis etiology, Tuberculosis pathology, Tuberculosis veterinary, Tumor Virus Infections etiology, Tumor Virus Infections pathology, Tumor Virus Infections veterinary, Communicable Diseases, Emerging veterinary, Primate Diseases etiology, Primate Diseases pathology

Abstract

Despite numerous advances in the diagnosis and control of infectious diseases of nonhuman primates in the laboratory setting, a number of infectious agents continue to plague colonies. Some, such as measles virus and Mycobacterium tuberculosis, cause sporadic outbreaks despite well-established biosecurity protocols, whereas others, such as retroperitoneal fibromatosis-associated herpesvirus, have only recently been discovered, often as a result of immunosuppressive experimental manipulation. Owing to the unique social housing requirements of nonhuman primates, importation of foreign-bred animals, and lack of antemortem diagnostic assays for many new diseases, elimination of these agents is often difficult or impractical. Recognition of these diseases is therefore essential because of their confounding effects on experimental data, impact on colony health, and potential for zoonotic transmission. This review summarizes the relevant pathology and pathogenesis of emerging and reemerging infectious diseases of laboratory nonhuman primates.

Published

2010

60. Nosema ceranae in European honey bees (Apis mellifera).

Author

Fries I

Subjects

Animals, Bees physiology, Europe epidemiology, Freezing, Fungicides, Industrial pharmacology, Genome, Host-Parasite Interactions, Microsporidiosis epidemiology, Microsporidiosis pathology, Nosema genetics, Phylogeny, Seasons, Spores, Beekeeping, Bees microbiology, Microsporidiosis veterinary, Nosema pathogenicity

Abstract

Nosema ceranae is a microsporidian parasite described from the Asian honey bee, Apis cerana. The parasite is cross-infective with the European honey bee, Apis mellifera. It is not known when or where N. ceranae first infected European bees, but N. ceranae has probably been infecting European bees for at least two decades. N. ceranae appears to be replacing Nosema apis, at least in some populations of European honey bees. This replacement is an enigma because the spores of the new parasite are less durable than those of N. apis. Virulence data at both the individual bee and at the colony level are conflicting possibly because the impact of this parasite differs in different environments. The recent advancements in N. ceranae genetics, with a draft assembly of the N. ceranae genome available, are discussed and the need for increased research on the impacts of this parasite on European honey bees is emphasized., (Copyright 2009 Elsevier Inc. All rights reserved.)

Published

2010

61. Ultrastructure, development, and host-parasite relationship of a new species of the genus Pleistophora--a microsporidian parasite of the marine fish Epinephelus chlorostignei.

Author

Abdel-Ghaffar F, Bashtar AR, Mehlhorn H, Al-Rasheid K, Al-Olayan E, Koura E, and Morsy K

Subjects

Animals, Epithelial Cells parasitology, Fish Diseases pathology, Gastrointestinal Tract parasitology, Microscopy, Microscopy, Electron, Transmission, Microsporidiosis parasitology, Microsporidiosis pathology, Peritoneal Cavity parasitology, Pleistophora isolation & purification, Pleistophora pathogenicity, Bass parasitology, Fish Diseases parasitology, Host-Parasite Interactions, Microsporidiosis veterinary, Pleistophora growth & development, Pleistophora ultrastructure

Abstract

The life cycle of a new microsporidian of the genus Pleistophora is described. This parasite infects the epithelial cells of the gut and the peritoneal cavity of the Red Sea fish, Epinephelus chlorostignei. All stages develop within a special structure, the sporophorocyst, which is covered by a thick dense wall. This wall grows along with the growth of the parasites inside. Meronts are uni- to binucleate, which divide and constantly give rise to sporonts. During transition to sporonts, the cell border of the meronts increases its thickness, temporarily featuring thick irregular projections. Eventually, a uniform thick sporont wall is formed; then, the sporont cells detach themselves from the wall (future wall of the sporophorous vesicle, SPV) and start a series of divisions to produce sporoblasts. The SPV wall is compact, has no pores, and consists of two layers. Mature spores measure about 2.0 x 1.8 microm. They possess a polar filament with 20-28 coils, a posterior vacuole, and a polaroplast made up of an outer part of dense and closely spaced lamellae encircling an inner part of widely spaced lamellae. All morphological and ultrastructural features indicate that the described microsporidian parasite belongs to the genus Pleistophora.

Published

2009

62. Occurrence of Glugea pimephales in planktonic larvae of fathead minnow in Algonquin Park, Ontario.

Author

Forest JJ, King SD, and Cone DK

Subjects

Animals, Fish Diseases epidemiology, Fish Diseases pathology, Larva microbiology, Microsporidiosis epidemiology, Microsporidiosis microbiology, Microsporidiosis pathology, Ontario epidemiology, Plankton, Cyprinidae, Fish Diseases microbiology, Glugea classification, Microsporidiosis veterinary

Abstract

The microsporidian Glugea pimephales was found parasitizing larval fathead minnow Pimephales promelas in Scott Lake, Algonquin Park, Ontario. These fish were estimated to be 2-3 weeks posthatch and, given the development time of the parasite, must have acquired infection soon after commencement of exogenous feeding. Histological sections revealed that the parasite typically developed in loose connective tissue between the peritoneum and the dermis of the abdominal cavity, with protruding xenomas of up to 2.6 mm in diameter forming near the vent. Prevalence was estimated at 1% by divers performing snorkel surveys along the lake shoreline. Divers following schools of fathead minnow consistently reported that larvae with the obvious cysts wobbled during swimming and that infected fish were typically located at the back of the dispersing school. This case history joins a growing list of studies suggesting that fish can become infected with parasites soon after hatch, the potential importance of which has not been critically studied.

Published

2009

63. How natural infection by Nosema ceranae causes honeybee colony collapse.

Author

Higes M, Martín-Hernández R, Botías C, Bailón EG, González-Porto AV, Barrios L, Del Nozal MJ, Bernal JL, Jiménez JJ, Palencia PG, and Meana A

Subjects

Animals, Antifungal Agents pharmacology, Bees ultrastructure, Cyclohexanes pharmacology, Fatty Acids, Unsaturated pharmacology, Gastrointestinal Tract pathology, Microscopy, Microscopy, Electron, Transmission, Microsporidiosis pathology, Sesquiterpenes pharmacology, Bees microbiology, Microsporidiosis microbiology, Nosema isolation & purification

Abstract

In recent years, honeybees (Apis mellifera) have been strangely disappearing from their hives, and strong colonies have suddenly become weak and died. The precise aetiology underlying the disappearance of the bees remains a mystery. However, during the same period, Nosema ceranae, a microsporidium of the Asian bee Apis cerana, seems to have colonized A. mellifera, and it's now frequently detected all over the world in both healthy and weak honeybee colonies. For first time, we show that natural N. ceranae infection can cause the sudden collapse of bee colonies, establishing a direct correlation between N. ceranae infection and the death of honeybee colonies under field conditions. Signs of colony weakness were not evident until the queen could no longer replace the loss of the infected bees. The long asymptomatic incubation period can explain the absence of evident symptoms prior to colony collapse. Furthermore, our results demonstrate that healthy colonies near to an infected one can also become infected, and that N. ceranae infection can be controlled with a specific antibiotic, fumagillin. Moreover, the administration of 120 mg of fumagillin has proven to eliminate the infection, but it cannot avoid reinfection after 6 months. We provide Koch's postulates between N. ceranae infection and a syndrome with a long incubation period involving continuous death of adult bees, non-stop brood rearing by the bees and colony loss in winter or early spring despite the presence of sufficient remaining pollen and honey.

Published

2008

64. Diffuse intra-abdominal granulomatous seeding as a manifestation of immune reconstitution inflammatory syndrome associated with microsporidiosis in a patient with HIV.

Author

Sriaroon C, Mayer CA, Chen L, Accurso C, Greene JN, and Vincent AL

Subjects

AIDS-Related Opportunistic Infections microbiology, Adult, Anti-HIV Agents therapeutic use, HIV Infections drug therapy, HIV Infections virology, Humans, Male, AIDS-Related Opportunistic Infections immunology, HIV Infections immunology, Immune Reconstitution Inflammatory Syndrome immunology, Intestine, Small microbiology, Intestine, Small pathology, Microsporidiosis microbiology, Microsporidiosis pathology, Peritoneal Cavity microbiology, Peritoneal Cavity pathology

Published

2008

65. [Multiple intracerebral enhanced lesions strongly suspected to be microsporidiosis. A case report].

Author

Okuyama H, Kanamori M, Watanabe M, Kumabe T, and Tominaga T

Subjects

Adult, Albendazole therapeutic use, Anthelmintics therapeutic use, Brain Diseases pathology, Humans, Male, Microsporidiosis pathology, Brain Diseases diagnosis, Microsporidiosis diagnosis

Abstract

This case of microsporidiosis manifested as mutiple intracranial lesions separated in space and time, and neurological and radiological findings were improved with albendazole administration. A 33-year-old man presented with headache, fever, and dysphasia. His consciousness was clear. Neurological examination revealed acalculia, agraphia, and homonymous hemianopsia. He had a past history of febrile convulsive seizures of unknown cause until 14-years-old, but no history of immunodeficiency. T1-weighted magnetic resonance (MR) imaging showed a hypointense lesion with a hyperintense part, and ring-like enhancement with gadolinium-diethylenetriaminepenta-acetic acid (Gd-DTPA), in the left temporal lobe. T2-weighted and diffusion-weighted MR imaging showed the lesion surrounded by moderate hyperintense areas. He underwent gross total resection of the lesion. Histological examination demonstrated intracellular clusters of small basophilic spore-like bodies in the astrocytes, suggestive of microsporidia-infected astrocytes. However, immunohistochemical, polymerase chain reaction, and serological analyses failed to confirm the definitive diagnosis of microsporidiosis, so that he received no further treatment. Three years later, he presented with sensory disturbance in the left side of his face and left cerebellar ataxia, followed by fever, abnormal sensation in the left side of his face, and aggravated ataxia of the left upper and lower extremities on day 10 after admission. T1-weighted MR imaging with Gd-DTPA showed an enhanced lesion with irregular margin in the left cerebellar peduncle. T2-weighted MR imaging showed a diffuse hyperintense region around the lesion. Cerebrospinal fluid culture, serological analysis for autoimmune disease, and thoracic, abdominal, and pelvic computed tomography and 18F-fluorodeoxyglucose-positron emission tomography detected no abnormalities such as cancers or other lesions in the extracranial organs. No definitive diagnosis was obtained, but recurrence of microsporidiosis was the most probable cause. Administration of albendazole (600 mg/day) was started on day 15, because of rapid neurological and radiological deterioration. This treatment resulted in clinical improvement and disappearance of the lesion on MR imaging after daily administration for 4 weeks. He was discharged on foot with moderate sensory disturbance in the left side of the face and ataxia. Based on the clinical course and negative findings, the final diagnosis was microsporidiosis. This case suggests that microsporidiosis in the central nervous system can persist even in immunocompetent patients without involvement of any other organs, and that albendazole administration is likely to be effective.

Published

2008

66. Effects of dexamethasone on host innate and adaptive immune responses and parasite development in rainbow trout Oncorhynchus mykiss infected with Loma salmonae.

Author

Lovy J, Speare DJ, Stryhn H, and Wright GM

Subjects

Animals, Anti-Inflammatory Agents pharmacology, Fish Diseases microbiology, Fish Diseases pathology, Gills microbiology, Gills pathology, Loma drug effects, Loma growth & development, Microscopy, Electron, Transmission, Microsporidiosis immunology, Microsporidiosis pathology, Dexamethasone pharmacology, Fish Diseases immunology, Immunity, Innate drug effects, Loma immunology, Microsporidiosis veterinary, Oncorhynchus mykiss immunology, Oncorhynchus mykiss microbiology

Abstract

The effects of dexamethasone (dex) treatment on infections with the microsporidian parasite, Loma salmonae and the effects of dex on initiation of the adaptive immune response were investigated in rainbow trout, Oncorhynchus mykiss experimentally infected with the parasite. Dex treatment resulted in significantly higher infections with the parasite in the gills and other internal organs, suggesting that dex inhibits aspects of the innate immune response to L. salmonae; the heavier infections in the gills and organs of rainbow trout resembled infections seen in Chinook salmon. Mean xenoma counts per microscope field in the gills of fish infected with L. salmonae treated with dex or left untreated were 169 and 30, respectively. Although higher numbers of xenomas were observed in dex treated fish, the xenomas were generally smaller in size than in infected control fish. The xenomas in dex treated fish showed morphological signs of degeneration including loss and degeneration of early parasite stages, accumulation of amorphous material in xenomas, and infiltration with phagocytic cells containing degenerated parasites. The xenomas in infected untreated fish had larger xenomas with a more uniform size and contained identifiable parasite stages in the cytoplasm. According to this study, once fish have developed an adaptive immune response to the parasite by previous exposure, then fish have 100% protection to reinfection even when treated with heavy doses of dex. L. salmonae immune fish treated or untreated with dex during reinfection with the parasite developed no xenomas in the gills 6 weeks post reinfection. These results indicate that once the cellular response is primed to L. salmonae, then dex related immunosuppression does not reduce the effectiveness of the adaptive immune response.

Published

2008

67. Outbreak of microsporidiosis caused by Enterocytozoon bieneusi in falcons.

Author

Müller MG, Kinne J, Schuster RK, and Walochnik J

Subjects

Animals, Animals, Domestic, Antiprotozoal Agents therapeutic use, Bird Diseases pathology, DNA, Fungal chemistry, DNA, Fungal genetics, Dimetridazole therapeutic use, Disease Outbreaks veterinary, Enterocytozoon genetics, Enterocytozoon pathogenicity, Female, Humans, Immunohistochemistry veterinary, Male, Microsporidiosis epidemiology, Microsporidiosis pathology, Molecular Sequence Data, Spores, Protozoan, United Arab Emirates epidemiology, Bird Diseases epidemiology, Enterocytozoon isolation & purification, Falconiformes microbiology, Microsporidiosis veterinary

Abstract

Four falcons from a private collection of 137 falcons in Abu Dhabi (UAE) died suddenly in summer 2005. In order to screen for a possible disease among the remaining falcons in the aviary, all other birds were caught, examined and treated if necessary. Most of the falcons suffered from massive lice infestation and 74 falcons additionally from a heavy Caryospora sp. burden. Endoscopy revealed yellowish plaques on intestines, livers or kidneys in 70 birds (51.1% morbidity). Proliferative serositis was seen in 17 out of 24 necropsied birds with plaques on intestines, livers or kidneys, which did not resemble any known disease in falcons. However, apart from 20 falcons, which died within a 6-week period after the initial examinations due to advanced disease stages, all other falcons responded well to the treatment with dimetridazole (Emtryl), indicating protozoal disease. Immunohistochemistry confirmed the presence of microsporidial antigen. The final diagnosis of Enterocytozoon (E.) bieneusi genotype D was confirmed with materials from 6 birds by PCR and sequencing. To our knowledge this is the first report of microsporidiosis caused by E. bieneusi in raptors in general and in falcons in particular. However, it is still unclear for how long E. bieneusi was present in the falcon flock, and which role it played in the development of the disease. Predisposing factors such as high temperature and overcrowding in the aviary induced immune suppression causing massive lice infestation as well as coccidiosis, thus paving the way for invasion with microsporidial spores.

Published

2008

68. Intestinal microsporidial infections among Orang Asli (aborigine) children from Malaysia.

Author

Norhayati M, Al-Mekhlafi HM, Azlin M, Nor Aini U, Shaik A, Sa'iah A, Fatmah MS, Ismail MG, Ahmad Firdaus MS, Aisah MY, and Rozlida AR

Subjects

Adolescent, Child, Child, Preschool, Cross-Sectional Studies, Female, Humans, Intestinal Diseases parasitology, Malaysia epidemiology, Malaysia ethnology, Male, Microsporidia isolation & purification, Microsporidiosis pathology, Intestinal Diseases ethnology, Microsporidia classification, Microsporidiosis ethnology

Published

2007

69. Heterosporis anguillarum infections in farm cultured eels (Anguilla japonica) in Korea.

Author

Joh SJ, Kwon YK, Kim MC, Kim MJ, Kwon HM, Park JW, Kwon JH, and Kim JH

Subjects

Animals, Aquaculture, Fish Diseases pathology, Histocytochemistry veterinary, Korea, Microscopy, Electron, Scanning Transmission veterinary, Microsporidia ultrastructure, Microsporidiosis parasitology, Microsporidiosis pathology, Muscular Diseases parasitology, Muscular Diseases pathology, Anguilla, Fish Diseases parasitology, Microsporidia growth & development, Microsporidiosis veterinary, Muscular Diseases veterinary

Abstract

Ten eels (Anguilla japonica) from a fish farm in Korea were examined and diagnosed with a Heterosporis infection. The gross lesions on the trunk were uneven and the concave parts were pasty. Histopathologically, lyses of the trunk muscles, degenerative muscle fibers and the scattered spores were observed. The sporophorocyst (SPC) contained several spores with a variety of shapes. Some SPC were disrupted and the spores in the SPC were scattered in the muscle tissues. Macrophages existed near the scattered spores. Electron microscopy revealed special structures such as sporophorocyst containing various developmental parasitic stages such as meronts, sporonts, sporophorous vesicles and spores.

Published

2007

70. HIV enteropathy: crypt stem and transit cell hyperproliferation induces villous atrophy in HIV/Microsporidia-infected jejunal mucosa.

Author

Batman PA, Kotler DP, Kapembwa MS, Booth D, Potten CS, Orenstein JM, Scally AJ, and Griffin GE

Subjects

AIDS-Related Opportunistic Infections complications, Adult, Atrophy microbiology, Atrophy pathology, Biopsy, Cell Count, Cell Proliferation, Female, HIV Enteropathy complications, Humans, Male, Microsporidiosis complications, Middle Aged, Paneth Cells pathology, Stem Cells pathology, AIDS-Related Opportunistic Infections pathology, HIV Enteropathy pathology, Intestinal Mucosa pathology, Jejunum pathology, Microsporidiosis pathology

Abstract

Objectives: The study aim was to analyse the kinetics of stem and transit cells in the crypts of jejunal mucosa infected with HIV and Microsporidia., Design: The size of villi, depth of crypts and proliferative activity of transit and stem cells in jejunal mucosa were measured using morphometric techniques., Methods: The surface area/volume ratio (S/V) of jejunal biopsies was estimated under light microscopy using a Weibel graticule. Crypt length was measured by counting enterocytes along the crypt side from the base to the villus junction, and the mean crypt length was calculated. The S/V and crypt lengths of the jejunal mucosa of 21 HIV and Microsporidia-infected test cases were compared with 14 control cases. The labelling index in relation to the crypt cell position of 10 of the test cases was analysed compared with 13 control cases., Results: Differences were found in the S/V and crypt length, and there was a negative correlation between S/V and crypt length in test and control cases combined. Cell labelling indices fell into low and high proliferation groups. There were significant differences in labelling indices between low proliferation test cases and controls, between high proliferation test cases and controls, and between high and low proliferation test cases., Conclusion: Villous atrophy induced by HIV and Microsporidia is attributed to crypt cell hyperplasia and the encroachment of crypt cells onto villi. These infections induce crypt hypertrophy by stimulating cell mitosis predominantly in transit cells but also in stem cells. Increased stem cell proliferation occurs only in high proliferation cases.

Published

2007

71. Ultrastructural examination of the host inflammatory response within gills of netpen reared chinook salmon (Oncorhynchus tshawytscha) with Microsporidial Gill Disease.

Author

Lovy J, Wright GM, and Speare DJ

Subjects

Animals, Female, Fish Diseases immunology, Fish Diseases microbiology, Fisheries, Gills immunology, Gills microbiology, Loma immunology, Microscopy, Electron, Transmission veterinary, Microsporidiosis immunology, Microsporidiosis pathology, Neutrophils ultrastructure, Spores, Fungal ultrastructure, Fish Diseases pathology, Gills ultrastructure, Loma pathogenicity, Microsporidiosis veterinary, Salmon

Abstract

The sequence of host changes following the rupture of spore-laden xenomas of the microsporidian Loma salmonae during Microsporidial Gill Disease of Salmon was deduced from ultrastructural examination of the gills of naturally infected, moribund, chinook salmon from a commercial aquaculture site. The gills contained many stages of parasite development suggesting fish were chronically exposed to the parasite. Intact xenomas were generally found beneath the endothelium in arteries and arterioles and were encapsulated by a layer of collagen containing fibroblasts sometimes joined by desmosomes. Xenoma dissolution was characterized by neutrophil infiltration and loss of the xenoma plasma membrane and encapsulation. The inflammatory responses associated with ruptured xenomas ranged from acute lesions, denoted by a marked neutrophil infiltration and vascular thrombosis, to chronic lesions with a macrophage-rich infiltrate variously accompanied by neovascularization and vascular remodelling. Dendritic-like cells and plasma cells were characteristic throughout. Basement membrane damage of the primary filament epithelium and subsequent transepithelial expulsion of spores were associated with severe inflammation. An unusual previously undescribed multifocal change, in which epithelial cells invaded deeply beyond the normal boundaries of the basement membrane, affected areas of gill filament epithelium with basement membrane damage. Some neutrophils that contained L. salmonae spores, or spore polar tube, displayed morphological changes that included irregular cell shape, cytoplasmic darkening associated with an abundance of free ribosomes, lysis of neighbouring cells, and type II nuclear clefts. Fusion of apparently intact neutrophils occurred in other areas of the lesion, where close contacts between neighbouring cells were established and in some areas plasma membrane fusion occurred. Closely associated neutrophils with intact plasma membranes were observed to contain type II nuclear clefts, abundant granules and rough endoplasmic reticulum. Other neutrophils in the lesion displayed type I nuclear pockets, which is suspected to be an early stage of apoptosis.

Published

2007

72. Analysis of the beta-tubulin genes from Enterocytozoon bieneusi isolates from a human and rhesus macaque.

Author

Akiyoshi DE, Weiss LM, Feng X, Williams BA, Keeling PJ, Zhang Q, and Tzipori S

Subjects

AIDS-Related Opportunistic Infections drug therapy, AIDS-Related Opportunistic Infections pathology, Albendazole therapeutic use, Amino Acid Sequence, Animals, Antiprotozoal Agents therapeutic use, DNA, Ribosomal Spacer genetics, Enterocytozoon drug effects, Enterocytozoon isolation & purification, HIV physiology, Humans, Macaca mulatta, Microsporidiosis drug therapy, Microsporidiosis pathology, Molecular Sequence Data, Sequence Alignment, Simian Acquired Immunodeficiency Syndrome drug therapy, Simian Acquired Immunodeficiency Syndrome pathology, Simian Immunodeficiency Virus physiology, AIDS-Related Opportunistic Infections parasitology, Enterocytozoon genetics, Microsporidiosis parasitology, Simian Acquired Immunodeficiency Syndrome parasitology, Tubulin genetics

Abstract

Enterocytozoon bieneusi is the most common and clinically significant microsporidium associated with chronic diarrhea and wasting in immunocompromised humans. Albendazole, which is effective against several helminths, protozoa, and microsporidia, is relatively ineffective against infections due to E. bieneusi. A likely explanation for the observed clinical resistance to albendazole was discovered from sequence analysis of the E. bieneusibeta-tubulin from isolates from an infected human and a naturally infected rhesus macaque. The beta-tubulin of E. bieneusi has a substitution at Glu(198), which is one of six amino acids reported to be associated with benzimidazole sensitivity.

Published

2007

73. Trachipleistophora extenrec n. sp. a new microsporidian (fungi: microsporidia) infecting mammals.

Author

Vávra J, Horák A, Modrý D, Lukes J, and Koudela B

Subjects

Animals, Genes, rRNA, Madagascar, Mice, Mice, SCID, Microsporidia isolation & purification, Microsporidia ultrastructure, Microsporidiosis pathology, RNA, Ribosomal analysis, Spores, Fungal physiology, Spores, Fungal ultrastructure, Microsporidia classification, Microsporidiosis microbiology

Abstract

A new microsporidian Trachipleistophora extenrec n. sp. was isolated from a muscle lesion of the streaked tenrec Hemicentetes semispinosus Cuvier, 1798 (Mammalia, Tenrecidae), an insectivore endemic to Madagascar. The spores isolated from the tenrec were infectious to severe combined immunodeficient (SCID) mice by intramuscular injection. Material obtained from muscular lesions in mice was used for the parasite description. All developmental stages of the microsporidian were covered by a dense coat, which during sporogony changed into the sporophorous vesicle wall. Eight, 16, 32, or more spores were formed inside the sporophorous vesicle as the result of the division by plasmotomy and sequential fission of a multinucleate sporogonial plasmodium. Spores were ovoid, 4.7 x 2.8 microm in size, had a large posterior vacuole, and had an isofilar polar tube with 15-16 coils. Although the fine structure and the developmental pattern of the organism were in some respects similar to the genus Vavraia, molecular phylogeny based on the gene sequences of the small subunit rRNA and RNA polymerase subunit II indicated that the organism belongs to the genus Trachipleistophora. The diagnostic characters of the genera Trachipleistophora and Vavraia are discussed as well as the discrepancies between the phylogenies of these two microsporidian genera based on morphology and molecules.

Published

2006

74. Microsporidiosis in a flock of tricolor parrot finches (Erythrura tricolor).

Author

Gelis S and Raidal SR

Subjects

Animals, Bird Diseases diagnosis, Bird Diseases mortality, Diagnosis, Differential, Fatal Outcome, Microscopy, Electron methods, Microscopy, Electron veterinary, Microsporidia ultrastructure, Microsporidiosis diagnosis, Microsporidiosis mortality, Microsporidiosis pathology, Bird Diseases pathology, Finches microbiology, Microsporidia isolation & purification, Microsporidiosis veterinary

Abstract

The lesions caused by a microsporidian infection in a flock of tricolor parrot finches (Erythrura tricolor) are described. Affected birds had a widespread nodular to diffuse granulomatous inflammation of the serosal surfaces of the gastrointestinal tract, peritoneum, perirenal airsacs and connective tissue, bone marrow, dura, and conjunctiva. This was composed predominantly of foamy macrophages containing numerous intracytoplasmic microsporidia measuring 1 to 2 microm. Ultrastructural features consistent with microsporidia were the presence of a coiled polar filament and an electrode-dense outer surface and thick electron-lucent capsule. Differential diagnoses included infection with intracellular organisms, including coccidian and other apicomplexan parasites, such as lsospora, Eimeria, and blood parasites; Chlamydophilosis; disseminated mycobacteriosis; and other bacterial and fungal species.

Published

2006

75. Disseminated microsporidiosis due to Encephalitozoon hellem in an Egyptian fruit bat (Rousettus aegyptiacus).

Author

Childs-Sanford SE, Garner MM, Raymond JT, Didier ES, and Kollias GV

Subjects

Animals, Encephalitozoon physiology, Encephalitozoonosis pathology, Fatal Outcome, Female, Liver parasitology, Liver pathology, Microsporidiosis pathology, Urogenital System parasitology, Urogenital System pathology, Chiroptera, Encephalitozoon isolation & purification, Encephalitozoonosis veterinary, Microsporidiosis veterinary, Parasitic Diseases, Animal pathology

Abstract

Disseminated microsporidiosis was diagnosed in an adult female Egyptian fruit bat that died unexpectedly in a zoo. Gross findings, which were minimal, included poor body condition, bilateral renomegaly, and mottling of the liver. Histopathological lesions, which were particularly pronounced in the urogenital tract and liver, consisted primarily of inflammation associated with intracytoplasmic microsporidian spores. Polymerase chain reaction -based methods were used to establish the identity of the microsporidian as Encephalitozoon hellem. E. hellem is an emerging cause of human and avian disease, manifested mainly as opportunistic infection in immunosuppressed patients. This report describes the first documented case of E. hellem in a non-human mammalian species.

Published

2006

76. Interaction of water temperature and challenge model on xenoma development rates for Loma salmonae (Microspora) in rainbow trout, Oncorhynchus mykiss (Walbaum).

Author

Becker JA, Speare DJ, and Dohoo IR

Subjects

Animals, Fish Diseases mortality, Fish Diseases pathology, Microsporidiosis microbiology, Microsporidiosis mortality, Microsporidiosis pathology, Proportional Hazards Models, Survival Analysis, Temperature, Time Factors, Water, Fish Diseases microbiology, Loma growth & development, Loma pathogenicity, Microsporidiosis veterinary, Oncorhynchus mykiss microbiology

Abstract

This study evaluated the regulatory effects of water temperature on the development of branchial xenomas caused by Loma salmonae using a high-dose per os-challenge model compared with a low-dose cohabitation-challenge model. Approximately 275 juvenile rainbow trout (RBT), Oncorhynchus mykiss, were randomly distributed to six tanks with two tanks each maintained at 11, 15 and 19 degrees C. Fish in one tank from each temperature setting were exposed per os to macerated L. salmonae-infected gill material and fish in the other tank from each temperature setting were exposed to L. salmonae using the cohabitation-challenge model. Fish were monitored for the development of branchial xenomas beginning at day 21 post-exposure. Survival analyses were used to evaluate the effect of water temperature and challenge model on the number of days until the first visible branchial xenoma was detected. The survivor curves for the per os-challenge model revealed that there was at least one significant difference, whereas the cohabitation challenge did not reveal any significant differences amongst the temperature settings. The proportional hazards model revealed a significant interaction between the challenge model used and water temperature. This indicated that the effect of water temperature was different depending on challenge model. Additionally, from the mean xenoma intensities, on average, the per os-challenged fish showed higher xenoma intensity compared with the cohabitation-challenged fish. Overall, the impact of water temperature on disease pathogenesis was greater when the RBT were per os challenged compared with using the cohabitation model.

Published

2006

77. Pleistophora infestation in fathead minnows, Pimephales promelas (Rafinesque).

Author

Ruehl-Fehlert C, Bomke C, Dorgerloh M, Palazzi X, and Rosenbruch M

Subjects

Animals, Body Weights and Measures, Enzyme-Linked Immunosorbent Assay, Female, Male, Microscopy, Electron, Microsporidiosis pathology, Organ Size, Ovary microbiology, Ovary physiology, Ovary ultrastructure, Spores, Fungal isolation & purification, Vitellogenins blood, Cyprinidae, Fish Diseases microbiology, Fish Diseases pathology, Microsporidiosis veterinary, Pleistophora

Abstract

Pleistophora infestation was observed in adult fathead minnows, Pimephales promelas, held under laboratory conditions. Fish were clinically healthy, and presented no gross findings at necropsy. Histopathology revealed parasitic stages only in the ovaries. Spores within sporophorous vesicles were mainly encountered in late vitellogenic oocytes and were ultrastructurally identified as a microsporidian parasite. Heavily parasitized oocytes underwent degeneration followed by the release of spores into the ovarian interstitium. Degenerating oocytes and interstitial spores caused ovarian inflammation. Male fish showed no parasites in the testes. Parasitic infestation was compared with body length, body weight, gonadal weight, gonadosomatic index and plasma vitellogenin levels, and revealed no statistically significant differences between non-parasitized and parasitized females. The isolated holding conditions of the fish and the presence of parasitic stages in the ovaries suggested that an infestation with Pleistophora ovariaeSummerfelt, 1964 was more probable than that with Pleistophora mirandellae (Vaney & Conte, 1901).

Published

2005

78. The nature of Thelohania solenopsae (Microsporidia) cysts in abdomens of red imported fire ants, Solenopsis invicta.

Author

Sokolova YY, Fuxa JR, and Borkhsenious ON

Subjects

Animals, Abdomen microbiology, Ants microbiology, Cysts pathology, Microsporidiosis pathology

Abstract

Sixty four percent of Solenopsis invicta workers infected with Thelohania solenopsis contained 1-6 "cysts" ranging from 70 to 260 microm in diameter. Light and electron microscope analyses showed that cysts are hypertrophied adipocytes transformed by the parasites, each cyst presumably forming from a single cell. In the first step of the pathogenesis, Nosema-like spores functioning in autoinfection are produced; a diplokaryotic sequence leading to their formation causes fat body hypertrophy. When meiosis occurs, it switches parasite development to production of octospores and/or megaspores. Adipocytes become 2-4xlarger than normal in conjunction with intensive parasite multiplication and octospore maturation. Infected cells eventually lose their cellular organization and are converted into reservoirs for spores. There were no manifestations of cellular immunity, such as encapsulation or nodule formation. Similarly, there were no signs of specialized host-parasite interaction that might be interpreted as xenoma-like complexes. The role of the cysts in the parasite's life cycle is unclear. They may represent a defensive reaction of the host sacrificing the infected cells to segregate the infection. Alternatively, the cyst may help protect spores from environmental hazards and provide a concentrated infectious dose to aid horizontal transmission of the microsporidium. We propose to refer to hypertrophied adipocytes filled with T. solenospsae spores as "sporocytosacs", not "cysts."

Published

2005

79. Uptake of Encephalitozoon spp. and Vittaforma corneae (Microsporidia) by different cells.

Author

Franzen C, Hösl M, Salzberger B, and Hartmann P

Subjects

Animals, Caco-2 Cells, Cell Line, Chlorocebus aethiops, Encephalitozoon cuniculi physiology, Encephalitozoonosis pathology, Female, Fluorescent Antibody Technique methods, HT29 Cells, Humans, Intestines cytology, Intestines parasitology, Lung cytology, Lung parasitology, Microsporidiosis pathology, Organ Specificity, Phagocytes parasitology, Rabbits, Spores, Fungal physiology, Vero Cells, Encephalitozoon physiology, Vittaforma physiology

Abstract

Microsporidia are obligate intracellular parasites infecting a broad range of vertebrates and invertebrates. Various microsporidian species induce different clinical pictures in humans. The reason for this is not clear. It has been speculated that the different microsporidian species are transmitted by various routes, thus causing infections in different organs. Another possibility is that the diverse microsporidia have different tropisms to organ-specific cells, thus causing various diseases. In this study, we investigated the uptake of microsporidian spores by different cells with an immunofluorescence staining technique to investigate whether there is a difference between microsporidian species as well as between different cells. Using this technique, we were able to distinguish between intra- and extracellular microsporidian spores. All examined cell lines were able to internalize microsporidian spores, but the extent of internalization differed significantly between the cells. Although the results showed some patterns that correlate with the distribution of the parasites in humans, the different clinical pictures cannot be sufficiently explained by this phenomenon, so it seems more likely that the various clinical manifestations caused by the different microsporidian species are a consequence of different infection routes rather than of different affinities of the microsporidian species to different cells.

Published

2005

80. Chronic microsporidial stromal keratitis in an immunocompetent, non-contact lens wearer.

Author

Fogla R, Padmanabhan P, Therese KL, Biswas J, and Madhavan HN

Subjects

Aged, Aged, 80 and over, Albendazole therapeutic use, Animals, Antiprotozoal Agents therapeutic use, Benzamidines therapeutic use, Chronic Disease, Combined Modality Therapy, Contact Lenses, Corneal Stroma ultrastructure, Eye Infections, Parasitic pathology, Eye Infections, Parasitic therapy, Humans, Immunocompetence, Keratitis pathology, Keratitis therapy, Keratoplasty, Penetrating, Male, Microsporidia ultrastructure, Microsporidiosis pathology, Microsporidiosis therapy, Corneal Stroma parasitology, Eye Infections, Parasitic parasitology, Keratitis parasitology, Microsporidia isolation & purification, Microsporidiosis parasitology

Abstract

An 82-year-old healthy man with unilateral chronic stromal keratitis, initially diagnosed to have viral keratitis and refractory to medical therapy, showed numerous oval, microsporidial organisms, measuring 4-5 m in length in the corneal biopsy. Penetrating keratoplasty, followed by treatment with systemic albendazole and topical propamidine isethionate resulted in resolution of the infection. Electron microscopy of the keratoplasty specimen demonstrated sporoblasts with diplokaryotic nuclei and multiple coils of the filament. The light and electron microscopic features were consistent with microsporidial keratitis.

Published

2005

81. Microsporidian xenomas in fish seen in wider perspective.

Author

Lom J and Dyková I

Subjects

Animals, Fish Diseases transmission, Host-Parasite Interactions, Microscopy, Electron, Transmission, Microsporidia ultrastructure, Microsporidiosis pathology, Microsporidiosis transmission, Fish Diseases microbiology, Fish Diseases pathology, Fishes, Giant Cells microbiology, Life Cycle Stages physiology, Microsporidia growth & development, Microsporidiosis veterinary

Abstract

The history of understanding xenoparasitic complexes or xenomas provoked in the host cell by various protists and especially by microsporidia is outlined. Microsporidia have been known to produce xenomas in oligochaetes (e.g., genera Bacillidium, Burkea, Hrabyeia, Jirovecia, species of the collective group Microsporidium), crustaceans (e.g., Abelspora, Mrazekia), insects (e.g., Polydispyrenia, Thelohania) and poikilothermic vertebrates, mostly fish (Alloglugea, Amazonspora, Glugea, Ichthyosporidium, Loma, Microfilum, Microgemma, Neonosemoides, Pseudoloma, Spraguea, Tetramicra). An overview of characters of xenomas caused by species of these genera is presented. The study of microsporidia causing xenomas in fish offers an insight into cell pathology and is of interest since many of these species are important agents of diseases in commercial fish. Xenomas produced from a few types of target cell display a complete change of organisation of the host cell and differ, according to the agent, in their structure. Recent data show that proliferation of the parasite may have already started in the cells transporting the parasites to the final site of xenoma formation. However, these are preliminary revelations and most of the facets of the life cycle are still to be clarified. Curiously, xenoma-forming microsporidia do not seem to be strictly host specific. The salient features of fish microsporidian xenomas are discussed, such as role of the xenoma, whether its features are host- or microsporidium-dependent, development and demise of the xenoma in the course of time, and host reaction phenomena. The need of further research is emphasised.

Published

2005

82. Microgemma vivaresi (Microsporidia: Tetramicridae): host reaction to xenomas induced in sea scorpions, Taurulus bubalis (Osteichthyes: Cottidae).

Author

Canning EU and Curry A

Subjects

Animals, Apansporoblastina ultrastructure, England, Fibroblasts microbiology, Fish Diseases immunology, Host-Parasite Interactions, Liver microbiology, Microscopy, Electron, Microsporidiosis immunology, Microsporidiosis pathology, Muscle, Skeletal microbiology, Phagocytosis immunology, Apansporoblastina growth & development, Fish Diseases microbiology, Fish Diseases pathology, Fishes, Giant Cells microbiology, Life Cycle Stages physiology, Microsporidiosis veterinary

Abstract

Xenomas caused by Microgemma vivaresi Canning, Feist, Longshaw, Okamura, Anderson, Tsuey Tse et Curry, 2005 were found in liver and skeletal muscle of sea scorpions, Taurulus bubalis (Euphrasen). All muscle xenomas examined were in an advanced stage of destruction. In developing xenomas found in liver, parasites were restricted to the centre of the cell, separated from a parasite-free zone by a nuclear network formed by branching of the host cell nucleus. Although xenomas were able to reach a size of several hundred microns, the surface remained a simple plasma membrane. Host reactions took the form of penetration by phagocytes and isolation by fibroblasts. Once the xenoma had been attacked, the nuclear profiles became pycnotic and the barrier between parasitized and parasite-free zones was lost. Parasite antigens cannot be exposed at the surface of intact xenomas, as the host does not recognise the enlarging cell as foreign. Breaches in the plasma membrane of the xenoma and leakage of parasite antigens are thought to be the stimuli for phagocyte entry into the cell, its isolation by fibroblasts and eventual granuloma formation.

Published

2005

83. Diagnosis of Enterocytozoon bieneusi by the polymerase chain reaction in archival fixed duodenal tissue.

Author

Velásquez JN, Carnevale S, Oelemann WM, Etchart C, and Peralta JM

Subjects

Biopsy, DNA, Protozoan genetics, Diarrhea pathology, Duodenum drug effects, Duodenum pathology, Electrophoresis, Agar Gel, Enterocytozoon genetics, Formaldehyde pharmacology, Humans, Microsporidiosis parasitology, Microsporidiosis pathology, Paraffin Embedding, Specimen Handling, Tissue Fixation, Tissue Preservation, DNA, Protozoan isolation & purification, Diarrhea parasitology, Duodenum parasitology, Enterocytozoon isolation & purification, Microsporidiosis diagnosis, Polymerase Chain Reaction

Abstract

This study involved ninety five formalin-fixed paraffin-embedded duodenal biopsy specimens retrieved from hospital files that were microscopically observed for the presence of microsporidia. Eleven samples that revealed compatible organisms were analyzed by the polymerase chain reaction (PCR) with four different protocols for the detection of Enterocytozoon bieneusi. Amplicons of the right size were obtained by at least one method for nine samples, remaining two negative ones. We report a PCR methodology that allows the use of archival specimens obtained for traditional pathology.

Published

2005

84. Pseudospirochaetosis of the urinary bladder.

Author

Chitale S, Burgess N, Barker TH, and Roberts PF

Subjects

Aged, Aged, 80 and over, Diagnosis, Differential, Enterocytozoon isolation & purification, Female, Gram-Negative Bacterial Infections microbiology, Gram-Negative Bacterial Infections pathology, Humans, Microsporidiosis parasitology, Microsporidiosis pathology, Spirochaeta isolation & purification, Urinary Bladder Diseases microbiology, Urinary Bladder Diseases parasitology, Gram-Negative Bacterial Infections diagnosis, Microsporidiosis diagnosis, Urinary Bladder Diseases diagnosis

Abstract

This report describes an elderly patient with urinary symptoms who showed surface colonisation of the transitional mucosa of the bladder by an unusual haematoxophilic microorganism superficially resembling the "blue fuzz" seen in colonic biopsies showing intestinal spirochaetosis. Special stains showed that the organisms were Gram and Giemsa positive, weakly argyrophilic, and Ziehl-Nielsen negative. Immunostains were negative for Helicobacter pylori and electron microscopy revealed curious curved bodies, which were difficult to classify. Therefore, this condition was described as pseudospirochaetosis of the urinary bladder. The urinary symptoms regressed on treatment with ciprofloxacin. The clinicopathological relevance of these findings is discussed in the report.

Published

2005

85. Predictive modelling of post-onset xenoma growth during microsporidial gill disease (Loma salmonae) of salmonids.

Author

Rodriguez-Tovar LE, Speare DJ, Markham RJ, and Daley J

Subjects

Animals, Fish Diseases pathology, Fish Diseases transmission, Gills pathology, Microsporidiosis parasitology, Microsporidiosis pathology, Protozoan Infections, Animal pathology, Specific Pathogen-Free Organisms, Fish Diseases parasitology, Gills parasitology, Microsporidia growth & development, Microsporidiosis veterinary, Oncorhynchus parasitology, Protozoan Infections, Animal parasitology

Abstract

Loma salmonae, an obligate intracellular microsporidian parasite, is the causal agent of microsporidial gill disease of salmon (MGDS), characterized by the production, growth and eventual rupture of spore-filled xenomas. MGDS in farmed chinook salmon remains occult until xenoma rupture, at which time the infected fish respond with intense branchitis and high rates of mortality. The present study showed that in experimentally infected fish the rate of change of xenoma diameter could be modelled through regression analysis, particularly through the period of 4-9 weeks post-infection, yielding the predictive equation: xenoma diameter=-42.9 microns +15.3 microns x (number of weeks post-infection). This provides a tool for diagnosticians to predict the time to xenoma rupture and hence to the initiation of the clinical phase of MGDS.

Published

2004

86. Natural and experimental infection of immunocompromised rhesus macaques (Macaca mulatta) with the microsporidian Enterocytozoon bieneusi genotype D.

Author

Green LC, Didier PJ, Bowers LC, and Didier ES

Subjects

Animals, CD4 Antigens analysis, CD4 Lymphocyte Count, Cause of Death, Feces parasitology, Female, Immunocompromised Host, Integrin beta1 analysis, Intestines parasitology, Male, Simian Acquired Immunodeficiency Syndrome immunology, Spores, Protozoan isolation & purification, Survival Rate, T-Lymphocyte Subsets, AIDS-Related Opportunistic Infections immunology, AIDS-Related Opportunistic Infections parasitology, AIDS-Related Opportunistic Infections pathology, Disease Models, Animal, Enterocytozoon isolation & purification, Macaca mulatta, Microsporidiosis immunology, Microsporidiosis parasitology, Microsporidiosis pathology, Simian Acquired Immunodeficiency Syndrome complications

Abstract

Microsporidia are obligate intracellular parasites that cause opportunistic infections in AIDS and other immunocompromised patients. Eight simian immunodeficiency virus (SIV)-infected rhesus macaque monkeys (Macaca mulatta) were inoculated orally with Enterocytozoon bieneusi spores isolated from intestinal lavage fluid of an AIDS patient (genotype D) to study the natural history of this infection. Four monkeys were already naturally infected with E. bieneusi (also genotype D), and were included to determine if a second inoculum affected the course of illness. Spore shedding was detected in feces of all eight monkeys within the first week of experimental infection. Five monkeys died within 3.5 months of experimental E. bieneusi inoculation. Three of these five monkeys began the study with CD4+CD29+ T cell levels well below 20% of total T lymphocytes. Deaths were due to a variety of AIDS-related manifestations. Microsporidia did not appear to directly contribute to mortality but may have contributed to morbidity. At necropsy, microsporidia were found in bile and tissue sections of the gallbladder but not in the gut, kidneys, or liver. The percent CD4+CD29+ levels of the last three monkeys remained near the level observed at the time of inoculation. These monkeys lived more than 2 years after the end of the study and continued to shed spores. This study corroborates previous reports that E. bieneusi can be reliably transmitted to SIV-infected rhesus monkeys but indicates that the use of SIV-infected monkeys for the study of microsporidiosis is complicated by the confounding effect of other opportunistic or AIDS-related infections.

Published

2004

87. Modes of transmission of Glugea plecoglossi (Microspora) via the skin and digestive tract in an experimental infection model using rainbow trout, Oncorhynchus mykiss (Walbaum).

Author

Lee SJ, Yokoyama H, and Ogawa K

Subjects

Animals, Benzenesulfonates, Epithelium parasitology, Fish Diseases pathology, Gastrointestinal Tract parasitology, Histological Techniques, In Situ Hybridization, Microsporidiosis pathology, Microsporidiosis transmission, Oncorhynchus mykiss, Skin injuries, Skin parasitology, Skin pathology, Fish Diseases parasitology, Fish Diseases transmission, Microsporidia growth & development, Microsporidiosis veterinary

Abstract

Glugea plecoglossi (Microspora) is a significant cause of economic loss in cultured ayu, Plecoglossus altivelis, in Japan, due to the unsightly appearance of infected fish harbouring xenomas in the body cavity. Modes of transmission of G. plecoglossi via the skin and digestive tract were studied in an experimental infection model using rainbow trout, Oncorhynchus mykiss. Combined with Uvitex 2B and in situ hybridization (ISH) assays, the early development of G. plecoglossi was successfully traced. Following a bath exposure of fish Uvitex 2B-labelled G. plecoglossi spores were observed to attach to microscopic injuries (trypan blue-positive sites) of fish skin, after which ISH-positive sporoplasms were found to invade the epidermis as early as 5 min post-infection (PI), migrating rapidly to the subdermis. It was also shown that G. plecoglossi entering via the skin does not spread into the internal organs but develops into subdermal xenomas. After rainbow trout were exposed to G. plecoglossi spores by oral intubation, spores germinated in the intestinal lumen, followed by penetration of sporoplasms into the gut mucosal epithelium 5 min PI. In vitro trials determining stimulation factors (fish mucus, changes in pH, digestive enzymes) for the extrusion of the polar tube were inconclusive. The present study indicates that skin wounds and the gut epithelium can be portals of entry of G. plecoglossi and that natural infection in fish seems to occur perorally rather than via the skin.

Published

2004

88. Ultrastructural examination of two cases of stromal microsporidial keratitis.

Author

Rauz S, Tuft S, Dart JKG, Bonshek R, Luthert P, and Curry A

Subjects

Adult, Animals, Biopsy, Cell Nucleus genetics, Cornea ultrastructure, Corneal Transplantation, DNA, Viral analysis, Humans, Male, Microsporidia cytology, Middle Aged, Spores, Protozoan cytology, Viruses genetics, Viruses isolation & purification, Vittaforma cytology, Vittaforma isolation & purification, Cornea parasitology, Keratitis parasitology, Keratitis pathology, Microsporidia isolation & purification, Microsporidiosis parasitology, Microsporidiosis pathology

Abstract

Two cases with chronic stromal keratitis are described in immunocompetent hosts where the diagnosis was originally thought to be herpetic or adenoviral disease. Light microscopy and ultrastructural examination of corneal tissue by electron microscopy were performed following penetrating keratoplasty (case 1) and corneal biopsy (case 2). Specimens from both cases were analysed for viral identification by PCR. Two different species of Microsporidia were identified. Case 1 represents the fourth reported case of corneal stromal Vittaforma corneae where the spores measured 3.3 x 1.4 microm, arranged in characteristic linear groups of about four to eight. Each spore contained a diplokaryotic nucleus and a single row of ten polar tube coils. By contrast, case 2 is the first reported case of stromal keratitis caused by Trachipleistophora hominis. In this case, spores measured 4 x 2.4 microm, located typically within packets. In this species, the polar tube was arranged as a single row of about 10-13 profiles. Viral DNA could not be amplified by PCR. In conclusion, microsporidial stromal keratitis should be considered in culture-negative cases refractory to medical therapy. As microbiological culture techniques are unsuccessful, diagnosis may only be established following histopathological and ultrastructural examination of corneal tissue., (Copyright 2004 SGM)

Published

2004

89. Timing of changes in growth rate, feed intake and feed conversion in rainbow trout, Oncorhynchus mykiss (Walbaum), experimentally infected with Loma salmonae (Microspora).

Author

Ramsay JM, Speare DJ, and Daley J

Subjects

Animals, Body Weight, Eating physiology, Fish Diseases pathology, Microsporidiosis pathology, Microsporidiosis physiopathology, Time Factors, Fish Diseases physiopathology, Microsporidia, Microsporidiosis veterinary, Oncorhynchus mykiss growth & development

Published

2004

90. Experimental infection of severe combined immunodeficient (SCID) mice with the human microsporidian Trachipleistophora hominis.

Author

Koudela B, Vávra J, and Canning EU

Subjects

Animals, Female, Humans, Immunocompromised Host, Liver parasitology, Male, Mice, Mice, SCID, Microscopy, Electron, Microsporidia ultrastructure, Microsporidiosis pathology, Muscle, Skeletal parasitology, Spleen parasitology, Disease Models, Animal, Microsporidia growth & development, Microsporidiosis parasitology, Opportunistic Infections parasitology

Abstract

Different courses of microsporidiosis, related to the route of infection, were observed in severe combined immunodeficient (SCID) mice inoculated with spores of the human microsporidian Trachipleistophora hominis (Phylum Microspora). After eye contamination by spores the mice became moribund within 7 to 8 weeks, showing severe infection in the conjunctiva and cornea, and lighter infections in the urinary bladder, liver and spleen. The mean survival time of intramuscularly inoculated SCID mice was 12 weeks, when heavy infection was found in muscles around the site of inoculation, and also in several viscera. Subcutaneously inoculated SCID mice developed skin lesions around the inoculation sites, and heavy urinary bladder infection, and died 6 or 7 weeks after inoculation. Intracerebrally inoculated SCID mice became moribund 5 or 6 weeks after inoculation with massive infection in the urinary bladder and liver, but none in the brain. Intraperitoneally inoculated SCID mice survived for 13 weeks and the urinary bladder and liver were the most heavily infected organs. The SCID mice, inoculated perorally and examined after 23 weeks, were uninfected. Infection was not detected in the brain of any of the inoculated SCID mice. Our results show that T. hominis has very little tissue specificity. Peroral infection seems to be ineffective in T. hominis, but eye conta mination or insect bite (as mimicked by injection) are suggested as possible routes of infection under natural conditions.

Published

2004

91. Immunohistochemistry, histopathology and ultrastructure of Gasterosteus aculeatus tissues infected with Glugea anomala.

Author

Dezfuli BS, Giari L, Simoni E, Shinn AP, and Bosi G

Subjects

Animals, Bombesin, Enkephalin, Leucine, Fish Diseases immunology, Fish Diseases parasitology, Galanin, Granulocytes immunology, Histological Techniques, Immune Sera immunology, Immunohistochemistry, Microscopy, Electron, Microsporea immunology, Microsporidiosis parasitology, Microsporidiosis pathology, Nerve Fibers immunology, Scotland, Serotonin, Spores physiology, Fish Diseases pathology, Microsporea physiology, Microsporidiosis veterinary, Smegmamorpha

Abstract

Immunohistochemical and histopathological studies were conducted on a population of 3-spined sticklebacks Gasterosteus aculeatus (L.) from Loch Airthrey (Stirling, Scotland) naturally infected with the microsporean Glugea anomala (Moniez 1887). Of the 55 host specimens that were examined, 16 (29.09%) were infected, the intensity of infection ranging from 1 to 4 xenomas per fish, which were principally located within the central portion of the body lateral flank musculature. All 32 G. anomala xenomas examined were mature, their diameter ranging from 936 to 2232 Pum, and their walls of presented a laminar structure. Subcutaneously situated xenomas protruded from the fish body surface, whilst xenomas encountered within the intestine were seen to cause distortion. Light and electron microscopical observations confirmed a host cellular reaction around the xenoma, seen by the presence of eosinophile granule cells (EGCs), and some neutrophils. The occurrences of rodlet cells among the intestinal epithelial cells, and in close proximity to the xenoma wall, were observed in certain specimens. Outside the xenoma wall, macrophage aggregates (MAs) were commonly encountered. Within the xenoma wall, the presence of eosinophile granular cells immunoreactive to the anti-serotonin serum was also recorded. Further immunohistochemical tests revealed that a high number of nerve fibres running along the white lateral muscle fibres were immunoreactive to bombesin-, galanin-, and leu-enkephalin-antisera. Nerve fibres containing bombesin- and leu-enkephalin-like substances were also observed in the connective inflammatory tissue around the protozoan cyst, while neurons in the spinal ganglia were immunoreactive to met-enkephalin, and serotonin antisera. The control for the specificity of immunohistochemical reactions was performed using preabsorption tests of each antiserum with the corresponding antigen, and no immunoreactivity was noticed. The data presented are discussed in relation to the occurrence of G. anomala, which alters the pattern of nerve fibres present in the host. Specifically, the protozoan induces a response in the stickleback nervous system, the reaction of which is revealed through the application of immunohistochemical techniques.

Published

2004

92. Disseminated microsporidiosis in a pancreas/kidney transplant recipient.

Author

Carlson JR, Li L, Helton CL, Munn RJ, Wasson K, Perez RV, Gallay BJ, and Finkbeiner WE

Subjects

Adult, Animals, Encephalitozoon isolation & purification, Humans, Liver parasitology, Male, Microsporidiosis diagnosis, Microsporidiosis etiology, Kidney Transplantation, Microsporidiosis pathology, Pancreas Transplantation

Abstract

Human microsporidiosis has been described most commonly in patients with acquired immunodeficiency syndrome and only rarely in those with other forms of immunosuppression. Only 11 cases of microsporidiosis have been reported previously in solid transplant recipients. To our knowledge, this is the first report to describe a case of microsporidiosis in a pancreas/kidney transplant recipient in whom multi-organ system dissemination was observed. This infection was not detected until postmortem examination of stained tissue sections revealed microsporidian spores that were identified as Encephalitozoon species by transmission electron microscopy. It is suspected that leakage from the duodenal anastomosis to the bladder may have contributed to the dissemination of this infection.

Published

2004

93. [Laboratory diagnostics of human microsporidiosis].

Author

Słodkowicz-Kowalska A

Subjects

Animals, Disease Models, Animal, Enzyme-Linked Immunosorbent Assay, Fluorescent Antibody Technique, Humans, Microsporidia ultrastructure, Microsporidiosis microbiology, Microsporidiosis pathology, Sensitivity and Specificity, Staining and Labeling methods, Body Fluids microbiology, Feces microbiology, Microsporidia isolation & purification, Microsporidiosis diagnosis

Abstract

There are many techniques available for the identification of microsporidia in clinical specimens. Chromotrope 2R, calcofluor white M2R and FISH technique have all been reported to be useful as selective methods for microsporidia in stool specimens and in body fluids. Microsporidia in histologic tissue preparations have also been visualized with Giemsa, hematoxylin and eosin stain, Brown-Hopps stain or Warthin-Starry staining. Microsporidia can also be identified by using tests for detecting IgG and IgM antibodies to Encephalitozoon cuniculi such as the indirect fluorescent antibody (IFA) method and the enzyme-linked immunosorbent assay (ELISA). Transmission electron microscopy (EM) is not readily available. PCR testing of clinical specimens may be helpful in diagnosing the infection. The development of molecular techniques carries the promise of greatly increased diagnostic sensitivity and specificity, as well as provide a tool for use in epidemiological studies.

Published

2004

94. Transmission and tissue distribution of Pseudoloma neurophilia (Microsporidia) of zebrafish, Danio rerio (Hamilton).

Author

Kent ML and Bishop-Stewart JK

Subjects

Animals, Brain parasitology, Brain pathology, Central Nervous System Protozoal Infections parasitology, Central Nervous System Protozoal Infections pathology, Central Nervous System Protozoal Infections veterinary, Female, Fish Diseases pathology, Kidney parasitology, Kidney pathology, Male, Microsporidiosis pathology, Muscle, Skeletal parasitology, Muscle, Skeletal pathology, Ovary parasitology, Ovary pathology, Ovum parasitology, Ovum pathology, Retina parasitology, Retina pathology, Fish Diseases parasitology, Fish Diseases transmission, Microsporidia isolation & purification, Microsporidia physiology, Microsporidiosis transmission, Microsporidiosis veterinary, Zebrafish parasitology

Published

2003

95. Microsporidial stromal keratitis.

Author

Font RL, Su GW, and Matoba AY

Subjects

Aged, Animals, Corneal Stroma ultrastructure, Eye Infections, Parasitic pathology, Humans, Keratitis pathology, Keratoplasty, Penetrating, Male, Microsporidia isolation & purification, Microsporidia ultrastructure, Microsporidiosis pathology, Corneal Stroma parasitology, Keratitis parasitology, Microsporidiosis parasitology

Published

2003

96. Ultrastructural characterization and further transmission studies of Thelohania solenopsae from Solenopsis invicta pupae.

Author

Shapiro AM, Becnel JJ, Oi DH, and Williams DF

Subjects

Animals, Microsporidiosis pathology, Microsporidiosis physiopathology, Pupa parasitology, Ants parasitology, Microsporidia pathogenicity, Microsporidia physiology, Microsporidia ultrastructure, Microsporidiosis transmission, Spores, Protozoan ultrastructure

Published

2003

97. Diagnostic pathology of microsporidiosis.

Author

Orenstein JM

Subjects

Animals, Humans, Microsporida growth & development, Microsporida ultrastructure, Microsporidiosis physiopathology, Microsporida isolation & purification, Microsporidiosis pathology

Abstract

Microsporidia are ubiquitous spore-forming parasites that are important worldwide pathogens in the HIV/AIDS pandemic. They are also increasingly being seen in HIV(-) individuals. Infection has been documented in almost every tissue and organ in the body and in a broad spectrum of cell types, including epithelial, mesenchymal, and neural. Microsporidia elicit a wide range of pathology, e.g., inflammation and cell death, and symptoms, e.g., shortness of breath, sinusitis, and diarrhea with wasting. Untreated, microsporidiosis has been documented as a cause of death.

Published

2003

98. Xenoma formation during microsporidial gill disease of salmonids caused by Loma salmonae is affected by host species (Oncorhynchus tshawytscha, O. kisutch, O. mykiss) but not by salinity.

Author

Ramsay JM, Speare DJ, Dawe SC, and Kent ML

Subjects

Animals, Fish Diseases pathology, Fresh Water, Gills pathology, Microsporidiosis parasitology, Microsporidiosis pathology, Seawater, Time Factors, Fish Diseases parasitology, Gills parasitology, Microsporidia growth & development, Microsporidiosis veterinary, Oncorhynchus parasitology

Abstract

Host species and salinity often affect the development of disease in aquatic species. Eighty chinook salmon Oncorhynchus tshawytscha, 80 coho salmon O. kisutch and 80 rainbow trout O. mykiss were infected with Loma salmonae. Forty of each species were reared in seawater and 40 in freshwater. The mean number of xenomas per gill filament was 8 to 33 times greater in chinook salmon than in rainbow trout (RBT). Coho salmon had a mean xenoma intensity intermediate to that of chinook salmon and RBT. In contrast to the differences between species, salinity had no significant effect on xenoma intensity in any of these host species. The onset of xenoma formation occurred at Week 5 postexposure (PE) for chinook salmon and RBT, and at Week 6 PE for coho salmon. RBT had cleared all visible branchial xenomas by Week 9 PE, whereas xenomas persisted in coho and chinook salmon at Week 9 PE. Histologically, xenomas were visible in the filament arteries of the branchial arch in chinook and coho salmon gills but were absent from RBT gills. Fewer xenomas were seen in the central venous sinusoids of RBT than in chinook and coho salmon. The lower xenoma intensity, shorter duration of infection and pathological characteristics, common to microsporidial gill disease in RBT, suggest a degree of resistance to clinical disease that is not seen in coho and chinook salmon.

Published

2002

99. Localization of the initial developmental stages of Loma salmonae in rainbow trout (Oncorhynchus mykiss).

Author

Sánchez JG, Speare DJ, Markham RJ, Wright GM, and Kibenge FS

Subjects

Animals, DNA Probes analysis, DNA, Protozoan analysis, Gills parasitology, In Situ Hybridization veterinary, Intestine, Small parasitology, Microsporida growth & development, Microsporidiosis parasitology, Microsporidiosis pathology, Polymerase Chain Reaction veterinary, Fish Diseases parasitology, Microsporida isolation & purification, Microsporidiosis veterinary, Oncorhynchus mykiss parasitology

Abstract

The intracellular microsporidian parasite Loma salmonae affects salmonids of the genus Oncorhynchus and is a significant cause of economic losses in pen-reared Chinook salmon (O. tshawytscha) in British Columbia. Loma salmonae infection is easily recognized by the xenomas that form in the gills, but early stages of infection are difficult to detect in histologic sections. In situ hybridization (ISH), using an L. salmonae-specific digoxigenin-labeled single-stranded DNA probe, was used to detect the parasite during the early stages of infection. Loma salmonae was detected in the gut mucosal epithelium as early as 24 hours postexposure (PE), and it localized in the lamina propria of the intestine within 24 hours of infection. After the parasite was detected in the lamina propria, dividing merogonic stages in infected cells in the heart were detected by ISH as early as 2 days PE, providing the first evidence of parasitaemia and hematogenous distribution of this parasite in infected blood cells. The parasites inside the infected cells appeared to be undergoing merogony as they passed through the heart, indicating that proliferation may start at the site of infection, before the parasite arrives to the gills for their final developmental phase. This is the first time that L. salmonae passage through the intestinal wall and migration to the heart has been visualized; however, the identity of the cells harboring the parasite has yet to be determined.

Published

2001

100. The human isolate of Brachiola algerae (Phylum Microspora): development in SCID mice and description of its fine structure features.

Author

Koudela B, Visvesvara GS, Moura H, and Vávra J

Subjects

Aged, Animals, Female, Hepatomegaly parasitology, Hepatomegaly pathology, Host-Parasite Interactions, Humans, Liver parasitology, Liver pathology, Liver ultrastructure, Male, Mice, Mice, SCID, Microscopy, Electron, Microsporida isolation & purification, Microsporida ultrastructure, Microsporidiosis pathology, Splenomegaly parasitology, Splenomegaly pathology, Microsporida growth & development, Microsporidiosis parasitology

Abstract

Ocular, peroral, intraperitoneal, intramuscular, and subcutaneous inoculation of severe combined immunodeficient (SCID) mice with spores of the human isolate (CDC: V404) of Brachiola algerae (syn. Nosema algerae) (Phylum Microspora) revealed that the microsporidium develops in viscera of the immunodeficient mouse host, but only after the ocular administration of spores. It is hypothesized that the physico-chemical milieu of the conjunctiva and cornea helped to adapt the originally 'poikilothermic microsporidian' to the conditions within the homoiothermic organism. Ocular application of spores caused no clinical signs of disease at the application site. However, severe infection in the liver was found 60 days after infection, manifested as hepatosplenomegaly and multifocal miliary necroses and granulomas containing parasites. No microsporidia were found in any other tissues. Transmission electron microscopy revealed characteristic tubulovesicular 'secretory materials' on the plasma membrane of all developmental stages of B. algerae except sporoblasts and spores. These formations increase the parasite surface and allow more efficient metabolic communication of the parasite with the host cell. It is hypothesized that the presence of these structures is a factor helping the parasite to grow in a variety of hosts and tissues. Ultrastructural characters support the likelihood that B. algerae and B. vesicularum are conspecific, and that there exists a relationship between species of the genera Brachiola and Anncaliia.

Published

2001